Minimizing recovery time after a high availability event in a large-scale storage system

We claim: 1. A method for minimizing recovery time after a high availability (HA) event in a storage system, the method comprising: during an active replication session, creating in persistent storage mini replication session MOM objects from replication session-related configuration information of the active replication session, the mini replication session MOM objects including a subset of parameters needed to configure a data path of a data module in the storage system; and creating in the persistent storage mini volume objects for volumes of the active replication session, the mini volume objects including a subset of parameters of volume configuration information needed to configure the data module for the active replication session; and upon determining an occurrence of a HA event corresponding to the data module, the HA event causing a failure of the data module, prior to activation of the failed data module and prior to enabling input/output (IO) servicing by the failed data module, reconfiguring the failed data module based on the mini replication session MOM objects and the mini volume objects; performing non-replication IO-related configuration for the failed data module and, upon completion of the non-replication IO-related configuration, enabling the IO servicing by the failed data module; and subsequent to enabling the IO servicing by the failed data module, loading and reconstructing remaining replication session-related configuration other than the enabled IO servicing for the failed data module. 2. The method of claim 1 , further comprising: determining the high availability event also corresponds to a management module of the storage system, the method further comprising: upon restart of the management module, and prior to reconfiguring the mini replication session MOM objects and the mini volume objects, loading the mini replication session MOM objects and the mini volume objects at a beginning of a repository load from the persistent storage; and loading non-replication IO-related configuration information. 3. The method of claim 1 , further comprising: upon termination of the active replication session, removing the mini replication session MOM objects and the mini volume objects from volatile memory and the persistent storage. 4. The method of claim 1 , wherein the active replication session is implemented in one of synchronous replication mode and metro replication mode. 5. The method of claim 1 , wherein the mini replication session MOM objects include: parameters of remote storage systems to data that is to be mirrored as part of the active replication session, the parameters including at least one of remote system identifiers (IDs) and pairing labels used to identify the active replication session in local storage systems and the remote storage systems. 6. The method of claim 1 , wherein the mini volume objects include at least one of: volume pairing labels used by both local storage systems and remote storage systems to identify a volume within a storage array; and volume external identifiers (IDs) as seen by initiators. 7. A system for minimizing recovery time after a high availability (HA) event in a storage system, the system comprising: a memory comprising computer-executable instructions; and a processor operable by a storage system, the processor executing the computer-executable instructions, the computer-executable instructions when executed by the processor cause the processor to perform operations comprising: during an active replication session, creating in persistent storage mini replication session MOM objects from replication session-related configuration information of the active replication session, the mini replication session MOM objects including a subset of parameters needed to configure a data path of a data module in the storage system; and creating in the persistent storage mini volume objects for volumes of the active replication session, the mini volume objects including a subset of parameters of volume configuration information needed to configure the data module for the active replication session; and upon determining an occurrence of a high availability HA event corresponding to the data module, the HA event causing a failure of the data module, prior to activation of the failed data module and prior to enabling input/output (IO) servicing by the failed data module, reconfiguring the failed data module based on the mini replication session MOM objects and the mini volume objects; performing non-replication IO-related configuration for the failed data module and, upon completion of the non-replication IO-related configuration, enabling the IO servicing by the failed data module; and subsequent to enabling the IO servicing by the failed data module, loading and reconstructing remaining replication session-related configuration other than the enabled IO servicing for the failed data module. 8. The system of claim 7 , wherein the high availability event also corresponds to a management module of the storage system, the operations further comprising: upon restart of the management module, and prior to reconfiguring the mini replication session MOM objects and the mini volume objects, loading the mini replication session MOM objects and the mini volume objects at a beginning of a repository load from the persistent storage; and loading non-replication IO-related configuration information. 9. The system of claim 7 , wherein upon termination of the active replication session, the operations further comprise removing the mini replication session MOM objects and the mini volume objects from volatile memory and the persistent storage. 10. The system of claim 7 , wherein the active replication session is implemented in one of synchronous replication mode and metro replication mode. 11. The system of claim 7 , wherein the mini replication session MOM objects include: parameters of remote storage systems to data that is to be mirrored as part of the active replication session, the parameters including at least one of remote system identifiers (IDs) and pairing labels used to identify the active replication session in local storage systems and the remote storage systems. 12. The system of claim 7 , wherein the mini volume objects include at least one of: volume pairing labels used by both local storage systems and remote storage systems to identify a volume within a storage array; and volume external identifiers (IDs) as seen by initiators. 13. A computer program product embodied on a non-transitory computer readable medium, the computer program product including instructions that, when executed by a computer, causes the computer to perform operations comprising: during an active replication session at a storage system, creating in persistent storage mini replication session MOM objects from replication session-related configuration information of the active replication session, the mini replication session MOM objects including a subset of parameters needed to configure a data path of a data module in the storage system; and creating in the persistent storage mini volume objects for volumes of the active replication session, the mini volume objects including a subset of parameters of volume configuration information needed to configure the data module for the active replication session; and upon determining an occurrence of a high availability (HA) event corresponding to the data module, the HA event causing a failure of the data module, prior to activation of the failed data module and prior to enabling input/output (IO) servicing by the failed data module, reconfigurin